This multi-phased learning package progresses from guided engineering to an open mission-design challenge. Each step is scaffolded and includes easy-to-implement teaching tools, lessons and art activities. Learners, working in collaborative teams,...(View More) build an O-Rex spacecraft model. The building process incorporates inventing, designing and engineering- leading to a deeper understanding of NASA mission work. A leader guide, instructions, templates and a YouTube video are included and accessed through the Related & Supplemental Resources.(View Less)

Acting as the ICESat-2 satellite, students investigate the reflection of light photons off Earth's surface by catching and recording a number of photons. Using bouncy balls to represent the photons, students drop, let bounce once and try to catch in...(View More) one hand as many balls (photons) as possible. Drops occur on carpeted and non-carpeted areas, and with and without the presence of cardboard buildings, to represent different Earth surfaces. The lesson includes background information, instructions and concluding questions. Related Next Generation Science Standards (NGSS) are listed.(View Less)

Designed to help students learn about NASA's missions currently studying the sun and its effects on Earth, this second of two storybooks in the series focuses on the importance of collaboration in data acquisition and analysis. Through a series of...(View More) activities, students mine pre-existing data, find trends and patterns in that data, and collect and share related data. The guide concludes with a data challenge for students to design their own experiment using NASA's Magnetospheric Multiscale (MMS) satellites. The book contains teacher companions/guides with instructions and tips for classroom implementation (see Related & Supplemental URLs).(View Less)

This lesson plan teaches how to select the landing site for a planetary surface investigation, using the 5E learning cycle. Students will be able to determine a landing site for their Mars rover; work with their team to summarize information and...(View More) identify important details in non-fiction writing; research Gale Crater through an online interactive module; use Google Earth Mars to learn about Mars surface features; gather and analyze data to conduct a scientific experiment; collect and record data in a science notebook to draw logical and scientific conclusions; define and identify the role of controls and variables in teams' scientific or technical questions; and differentiate between weather and climate. The lesson plan has a number of appendices, including standards alignment. This is Lesson 8 of the elementary school version of the 6 week Mars Rover Celebration curriculum.(View Less)

This is an online lesson associated with activities during Solar Week, a twice-yearly event in March and October during which classrooms are able to interact with scientists studying the Sun. Outside of Solar Week, information, activities, and...(View More) resources are archived and available online at any time. This is an activity about measurements of solar activity. Learners will observe an image of the Sun and sketch major features, plot data to begin to recognize patterns of solar activity, look for long-term patterns in graphed data, compare X-ray and visible light images of the Sun to find solar features common to both sets of images, and make a prediction of what the Sun will look like in a visible light image after observing an X-ray image taken on the same day. This activity is scheduled to occur during Monday of Solar Week.(View Less)

This collection of math problems is based on a weekly series of space and Earth science problems distributed to teachers during the 2013-2014 school year. The problems were intended for students looking for additional challenges in the math and...(View More) physical science curriculum and were created to be authentic glimpses of modern science and engineering issues, often involving actual research data. Includes information for teachers and answer key.(View Less)

This is an activity associated with activities during Solar Week, a twice-yearly event in March and October during which classrooms are able to interact with scientists studying the Sun. Outside of Solar Week, information, activities, and resources...(View More) are archived and available online at any time. Learners will use SOHO spacecraft images of a coronal mass ejection and tracing paper to measure and then calculate the speed of the coronal mass ejection. This activity is scheduled to occur during Wednesday of Solar Week.(View Less)

Using common items - a glass soft drink bottle, a straw, clay and food coloring - students assemble and calibrate a thermometer and then use it to measure outdoor temperatures. Students record and graph the temperature data and, additionally,...(View More) complete scale conversion problems, a written assignment and an oral presentation. The Students' Cloud Observations On-Line (S'COOL) project engages students in making and reporting ground truth observations of clouds then comparing those observations with data from the CERES satellite instrument.(View Less)

This is a collection of mathematics problems relating to the moons of the solar system. Learners will use simple proportional relationships and work with fractions to study the relative sizes of the larger moons in our solar system, and explore how...(View More) temperatures change from place to place using the Celsius and Kelvin scales.(View Less)

The total amount of water on Earth, the places in which it is found and the percentages of fresh vs. salt are examined in this lesson. A short demonstration allows students to visualize the percentage differences and a coloring exercise illustrates...(View More) locations. This lesson uses the 5E instructional model. All background information, student worksheets and images/photographs/data are included in these downloadable sections: Teacher's Guide, Student Capture Sheet and PowerPoint Presentation.(View Less)